DE3726278A1 - Insulating panel, in particular for insulating roof structures - Google Patents

Abstract

The hitherto known insulating panels are inadequate with regard to the configuration of the panel joint, since satisfactory joint sealing cannot be achieved. The arrangement of grooves (5) and tongues (4) of trapezoidal cross-section results, while exploiting the natural elasticity, in a joint which remains tight with respect to air and water droplets even if it is "drawn apart" by a few millimetres. An arrangement, running obliquely with respect to the roof surface, of the grooves (12) and tongues (11) on the side longitudinal surfaces (9, 10) results in any water which, for example, has penetrated to the insulating-panel surface (6, 7) being channelled away out of the joint. <IMAGE>

Description

The invention relates to an insulation board, in particular for Insulation of roof structures or the like Tongue and groove connection to one of several insulation boards Formed surface layer can be joined.

All roof insulation materials and the building elements formed from them elements are exposed to very high loads. They are temperature fluctuations of -20 to + 80 ° C and the resulting heat expansion of the panel material itself and also the roof con structure. In addition, depending on the construction of the roof movements under wind and / or snow load. There the area to be isolated under the roof skin only by a Assembling a variety of insulation boards is coverable, care must be taken to ensure that the butt joints between the individual insulation boards also under the influence of the previous one remains tight.  

Joint leaks cause the passage of moist hot air that is in the joint or above the Plate surface condenses and therefore inevitably Condensation damage in the construction, whereby also the condensing water through the leaky joints penetrates down again onto the lower surface of the plate. The previously used insulation board butt joints through Overlap like a leaf or with all-round cylindrical tongue and groove connections, as they come from the Timber construction are known not to guarantee the warmth protection required.

The invention has for its object an insulation board to create a permanent airtight and watertight Butt joint allows.

This object is achieved according to the invention for an insulation board of the type described in the introduction in that the first-sided and the eaves-side lateral transverse surface and at least one lateral longitudinal surface are provided with at least one tongue and / or at least one groove, that the tongues and the grooves are each trapezoidal in cross-section are and that the grooves and tongues of the side longitudinal surface - with respect to the plane defined by the lower surface of the plate - from the ridge side at an angle to the eaves-side plate surface inclined. Due to the trapezoidal design of the tongues or grooves to be pushed into one another, the inherent elasticity of the materials that come into consideration for such insulation boards, in particular rigid polystyrene foam, is used. The springs are manufactured with a slight oversize and / or a somewhat larger trapezoidal angle, so that when two adjacent plates are pushed together, they can be firmly wedged together. Since each of the side surfaces of the springs and the grooves press against each other, there is a butt joint that is impermeable to air and dripping water, provided that the insulating material itself is not water-permeable.

If such a butt joint "pulled up" due to thermal expansion of the roof structure, for example, due to the inherent elasticity of the materials considered here, the existing press and groove connection is maintained at a joint opening of several millimeters, so that the joint tightness is ensured . The permanent elasticity of the materials under consideration here is according to the DIN standards with a compressive stress of N / mm ² 0.07 to 0.12 and with tensile stress N / mm ² 0.12 to 0.23. Characterized in that the grooves and tongues of the side longitudinal surfaces each inclined from the roof under surface from the ridge side to the eaves side towards the plate surface, it is further ensured that any penetrating water is led to the outside.

In an embodiment of the invention it is provided that in a Parallel plane to that defined by the lower surface of the board Plane of a spring on the ridge side lateral surface there is a groove on the side transverse surface of the eaves. This arrangement is inclined in conjunction with the running tongues or grooves of the side longitudinal surface in the butt connection of water that has penetrated to the outside safely dissipated.

In a preferred embodiment of the invention further provided that the respective grooves and tongues of Side longitudinal surfaces half a spring and one side towards the adjacent part of a groove on the side transverse surfaces cuts. This injured arrangement of the grooves and tongues of the side longitudinal surface to the grooves and tongues of the lateral cross-section results for two contiguously barte insulation boards a clinging of the butt joint of the adjacent side longitudinal surfaces with the push ver binding of the adjacent side transverse surfaces, so that also in this area for movements in the plane of the Surface tightness is maintained.  

In a further preferred embodiment of the invention provided that the plate surface along its first edge has a bevel that extends into the Eaves-side groove of an insulation board connecting on the ridge side runs and its length is greater than the groove depth. By this arrangement ensures that the surface position in their First eaves direction on the panel surface a roof pan-like overlap is obtained by connecting with the inclined grooves or tongues on the sides longitudinal surface approximately from the plate surface in a shock water that has penetrated back onto the plate surface che can be brought out.

In a preferred embodiment, it is also provided that that in each case on one side longitudinal surface to the plate top surface exposed area of at least one spring preferably in the corner area with one from the ridge side to the eaves side continuous groove is provided. Particularly useful it is here if the groove at the eaves end Distance opens out over the surface of the bevel. This measure ensures that of the plates surface in a possible gap, for example water already penetrating from leaks in the roof membrane on the next plate joint again on the plate surface is performed. At the same time it prevents the water can penetrate into the butt joint in the transverse direction.

In a further embodiment of the invention, that at least the plate surface and at least the area the groove with a water impermeable coating is provided. The coating can be in the form of a coat of paint or in the form of an additionally applied material layer can be made. The coating must be Water impermeable, but essentially the same Chen vapor diffusion values, as they do for the Insulation boards used material.

The invention is based on schematic drawings of a Embodiment explained in more detail. Show it:

Fig. 1 shows a section through an insulation panel in first-eaves direction,

Fig. 2 shows a butt joint in section in first-eaves direction,

Fig. 3 is a section through an insulation panel according to line III-III in Fig. 1 transversely to the first-eaves direction,

Fig. 4 is a view in the direction A on one side of the longitudinal surface,

Fig. 5 is an eaves side view of an insulation joint of the side longitudinal faces,

Fig. 6 of the insulation boards shock gem. Fig. 5 in the open position.

In Fig. 1, an insulation panel is shown shortened in length in the first eaves direction in a section in the first eaves direction. This also applies to the Seitenan view according to FIG. 4. The insulation panel consists, for example, of a polystyrene hard foam and has an essentially flat surface 1 of the panel. The ridge-side Be tenquerfläche 2 and the eaves-side cross-face 3 are each provided with springs 4 and grooves 5 . In the illustrated embodiment, two springs 4 are provided on the first-sided side transverse surface, which - with respect to the respective parallel plane to the lower plate surface 1 - on the eaves-side lateral transverse surface 3, a groove 5 is opposite. At the ridge-side lateral surface thus results in a full groove 5 and a laterally open groove 5 '. Accordingly, there are two full grooves 5 and three tongues 4 on the side transverse surface of the eaves.

The springs 4 as well as the grooves 5 have a trapezoidal cross-section, wherein the angle of inclination of the springs on one side transverse surface is expediently slightly larger than the angle of inclination of the associated grooves on the other side transverse surface.

The substantially parallel to the plate lower surface 1 duri fende plate surface 6 merges at its ridge-side end into a bevel 7 , which ends in the illustrated embodiment example in the associated spring 4 .

In the groove base of the grooves 5 , through suspension slots 8 are cut in the longitudinal direction of the groove in the insulating material. The suspension slots can be arranged across surfaces in the grooves on both sides. It is advisable, however, if the suspension slots are only arranged at the end of the eaves side to prevent the accumulation of water that could still penetrate due to undetected damage to the butt joint during installation.

In Fig. 2, a butt joint is formed by the side transverse surfaces of two neighboring insulation boards, which also shows the roof-like gripping under the chamfer 7 of the insulation board included on the eaves side.

As the cross section according to FIG. 3, the longitudinal side are surfaces 9 and 10 also, each with two springs 11 on the longitudinal side surface 9 and respectively associated with two grooves provided on the longitudinal side surface 10 12, so that, in turn, face a longitudinal side surface, in this case the longitudinal side 9 , two full continuous springs 11 and a full continuous groove 12 and two partial grooves 12 'result. Accordingly, two full grooves 12 and three full tongues 11 are present on the opposite side longitudinal surface 10 . Again, the springs 11 and the grooves 12 and 12 'have a trapezoidal cross-section. In each case in the groove base of the fully formed grooves 12 , suspension slots 8 are again cut into the material.

As shown in Fig. 4 in direction A according to Fig. 3 shows a side longitudinal surface, the grooves 12 and 12 'and the springs 11 - based on the plane defined by the lower surface 1 - from the ridge side under one Angle inclined towards the eaves-side end of the plate surface. To illustrate the Dar position, the bottom of the grooves 12 and the partial grooves 12 'is shown rasterized in the surface. The double-visible edge that results from the supervision of the trapezoidal groove or trapezoidal tongue has been omitted in the illustration, but this edge has been illustrated as a solid line.

As the view of FIG. 4 can be seen, the springs 11 and the grooves 12 and 12 'arranged on the longitudinal side faces such that they each have a spring 4 and the adjacent groove 5 5 and half' ridge-side on both the as also cut on the eaves-side lateral surface. This then results in the overlap of the springs 4 and grooves 5 of the Seitenquerflä surfaces with the springs 11 and grooves 12 of the side longitudinal surfaces shown in Fig. 6 in a view of a non-collapsed insulation board joint. The bottom of the grooves 5 is again marked with a grid to clarify the illustration. Fig. 6 shows the top view of an eaves-side side cross surface of an insulation board joint. As can be seen from FIGS. 4, 5 and 6, the surface 6 of the plate nearest spring 11 is provided in each case on the side facing the longitudinal surface, on its plate surface 6 side with a groove 13. As the supervision according to Fig. 5 and the plan view of FIG. 6 show, the groove 13 is preferably arranged in the corner region of the spring 11 so that opens into this groove 13 when together Slid insulation impact the remaining gap 14, so that here on water infiltrations which is indicated in Fig. 4, exit from the groove 8 on the eaves side end and the groove can drain 8 engaging under bevel 7 of the underlying insulation panel.

At least the plate surface 6 with the bevel 7 and the groove 13 with its area 14 adjoining the plate surface 6 are provided with a water-permeable coating. This coating can also take the form of an "impregnating" paint, ie the paint penetrates into the pores of the insulating material in the surface area. The penetration depth for polystyrene foams can be up to about 5 mm.

If the coating does not have sufficient vapor diffusion values both the plate surface, i.e. to Roof edge, as well as the plate underside coated will. Since one of the insulation boards described above Formed surface layer with appropriate coating water is impermeable, the installation of a so-called Roofing membrane.

As shown in Fig. 5 and 6, it is expedient if the adjacent to the underside of the plate 1 spring 11 '' and the supplied hearing groove 12 'basic with its end face 14 and the groove 15 relative to the other springs 11 and grooves 12 are staggered. This achieves a WK value in the joint area that corresponds to the WK value of the insulation board and, in the worst case, is still 80% of this WK value.

Claims (10)

1. Insulation board, in particular for the insulation of roof constructions or the like, which can be joined together via a tongue and groove connection to a surface layer formed from a plurality of insulation boards, characterized in that the ridge-side and the eaves-side side transverse surface ( 2 , 3 ) and at least one Side longitudinal surface with at least one spring ( 4 , 11 ) and at least one groove ( 5 , 12 ) are hen that the springs ( 4 , 11 ) and the grooves ( 5 , 12 ) are each trapezoidal in cross section and that the springs ( 11 ) and the grooves ( 12 ) of the longitudinal side surface - with respect to the plane defined by the lower plate surface ( 1 ) - from the ridge side ( 2 ) at an angle to the eaves-side end ( 3 ) of the plate surface ( 6 ). 2. Insulation board according to claim 1, characterized in that in a parallel plane to the surface of the lower plate ( 1 ) defined plane of a spring ( 4 ) on the ridge side lateral surface ( 2 ) opposite a groove ( 5 ) on the eave side transverse surface ( 3 ) . 3. Insulation board according to claim 1 or 2, characterized in that the grooves ( 12 ) of the side longitudinal surfaces each cut in half a tongue ( 4 ) and an adjacent groove ( 5 , 5 ') of the sides transverse surfaces ( 2 , 3 ). 4. Insulation board according to one of claims 1 to 3, characterized in that the plate surface ( 6 ) along its ridge-side edge has a bevel ( 7 ) which extends into the eaves-side groove ( 5 ) of a ridge-side insulation board and its length is greater is than the groove depth. 5. Insulation board according to one of claims 1 to 4, characterized in that in the groove bottom at least the longitudinally arranged on the sides of the grooves ( 12 ) longitudinal suspension slots ( 8 ) are arranged. 6. Insulation board according to one of claims 1 to 5, characterized in that the surface of the board surface ( 6 ) exposed at least one spring ( 11 ) is preferably provided in a corner area with a continuous groove ( 13 ) from the ridge side to the eaves side on a longitudinal side surface . 7. Insulation board according to claim 6, characterized in that the groove ( 13 ) at the eaves-side end ( 3 ) opens out at a distance above the surface of the bevel ( 7 ) of the subsequent insulation board. 8. Insulation board according to one of claims 1 to 7, characterized in that at least the board surface ( 6 ) and at least the region of the groove ( 13 ) is provided with a water-impermeable coating. 9. Insulation board according to one of claims 1 to 8, characterized characterized in that it consists of rigid polystyrene foam. 10. Insulation board according to one of claims 1 to 9, characterized in that the on the underside of the board ( 1 ) angren zende spring ( 11 '') and the associated groove ( 12 ') with its end face ( 14 ) or with the groove base ( 15 ) are offset from the other springs ( 11 ) or grooves ( 12 ).